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saturation binding analysis  (ATCC)


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    ATCC saturation binding analysis
    Saturation Binding Analysis, supplied by ATCC, used in various techniques. Bioz Stars score: 99/100, based on 3408 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Characterization of RTX N109D CD20 binding. Parent (WT) RTX (A and C) and RTX N109D (B and D) were directly conjugated to AlexaFluor 488 dye and used to stain live cells at concentration ranging from 0.78 to 100 nM. Specific binding to CD20-positive and negative cells were measured. (C and D) Extrapolation of Kd as the concentration of antibody bound to half the receptor sites at equilibrium by using a nonlinear regression analysis of one-site <t>saturation</t> binding. RTX, rituximab; WT, wild type.
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    (A) BASU-GLI1 vicinal labeling in ASZ followed by streptavidin pulldown ± CRT0329868 (CRT) (+biotin, +CRT, 5hr). (B) APEX2-GLI1 vicinal labeling in ASZ followed by streptavidin pulldown ± PSI. (C) Co-IP of FLAG-GLI1 in ASZ ± PSI followed by immunoblot. (D) PLA between total GLI1 and LAP2α (top) or LAP2β (bottom) in ASZ treated with indicated inhibitors for 2hr (scale bar=20μm, n=10 fields, ANOVA). (E) PLA between total GLI1 and LAP2α (left) or LAP2β (right) in 1º human BCCs treated with vorinostat ex vivo (scale bar= 66μm, n=10 fields, ANOVA). (F) Co-IP of in vitro translated HA-GLI1 zinc-finger domain (HA-GLI1ZF) from WCE. Inputs in Figure S5B. (G) LAP2-binding mutants mapped onto GLI1:DNA crystal structure (pdb:2GLI). Mutations which inhibit (red) or are permissive of (grey) LAP2 binding are illustrated as spheres. Co-IP in Figure S5C. (H) Co-IP of HA-GLI1WT/T296E transfected into HEK293T followed by immunoblot of endogenous LAP2. Inputs in Figure S5D. (I) qRT-PCR of GLI1 and GAPDH following transfection of GLI1WT/T296E into NIH3T3 (n=9, ANOVA). Associated immunoblot in Figure S5E. (J) Co-IP of full length GLI1 (GLI1 FL) or zinc-finger domain GLI1 (GLI1 ZF) with recombinant LAP2 constant region (−/+ indicate the addition of LAP2 peptide). Input in Figure S5F. (K) Co-IP of wheat germ cell extract in vitro translated HA-GLI1 with chemically synthesized biotin-LEM-like (residues 5–48), biotin-LEM (residues 109–153), or biotin-scrambled LEM-like domains. Associated inputs and <t>saturation</t> binding experiment in Figure S5G and S5H. (L) Co-IP of FLAG-GLI1 co-transfected into HEK293T with a gradient of LAP2α, followed by immunoblot for total LAP2 (n=3). Input and reciprocal IP in Figures S5I and S5J. (M) GLI1 transfected in HEK293T (top, cellular IP) or in vitro translated and incubated in WCE (bottom three, in vitro IP) with indicated mutations/truncations co-IP with associated epitope tag. IP washed over a gradient of high salt conditions prior to immunoblot. Complex strength=−slope(x)−1−slope(α)−1 Error bars represent standard error, error bars omitted when smaller than the width of associated data point symbol, ns=not significant, *p<0.05, **p<0.01, ***p<0.001, ****p<0.0001. See also Figure S5.
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    (A) A <t>saturation</t> binding assay was used to derive a Kd of 164.7 nM for fluorescent clicked PiB (4). (B) Dose-response curve showing displacement of fluorescent clicked PiB (4) (at 140 nM) with increasing concentrations (0–100,000 nM) of PiB (2) ( ) and clickable PiB (3) ( ). From these data, binding affinities (Ki) of 678.4 and 264.7 nM were determined for compounds 2 and 3, respectively (summarized in Table 1).
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    (A) A <t>saturation</t> binding assay was used to derive a Kd of 164.7 nM for fluorescent clicked PiB (4). (B) Dose-response curve showing displacement of fluorescent clicked PiB (4) (at 140 nM) with increasing concentrations (0–100,000 nM) of PiB (2) ( ) and clickable PiB (3) ( ). From these data, binding affinities (Ki) of 678.4 and 264.7 nM were determined for compounds 2 and 3, respectively (summarized in Table 1).
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    (A) A <t>saturation</t> binding assay was used to derive a Kd of 164.7 nM for fluorescent clicked PiB (4). (B) Dose-response curve showing displacement of fluorescent clicked PiB (4) (at 140 nM) with increasing concentrations (0–100,000 nM) of PiB (2) ( ) and clickable PiB (3) ( ). From these data, binding affinities (Ki) of 678.4 and 264.7 nM were determined for compounds 2 and 3, respectively (summarized in Table 1).
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    Image Search Results


    Characterization of RTX N109D CD20 binding. Parent (WT) RTX (A and C) and RTX N109D (B and D) were directly conjugated to AlexaFluor 488 dye and used to stain live cells at concentration ranging from 0.78 to 100 nM. Specific binding to CD20-positive and negative cells were measured. (C and D) Extrapolation of Kd as the concentration of antibody bound to half the receptor sites at equilibrium by using a nonlinear regression analysis of one-site saturation binding. RTX, rituximab; WT, wild type.

    Journal: Oncology Letters

    Article Title: Block-Removed Immunoglobulin Technology to enhance rituximab effector function by counteracting CA125-mediated immunosuppression

    doi: 10.3892/ol.2021.13120

    Figure Lengend Snippet: Characterization of RTX N109D CD20 binding. Parent (WT) RTX (A and C) and RTX N109D (B and D) were directly conjugated to AlexaFluor 488 dye and used to stain live cells at concentration ranging from 0.78 to 100 nM. Specific binding to CD20-positive and negative cells were measured. (C and D) Extrapolation of Kd as the concentration of antibody bound to half the receptor sites at equilibrium by using a nonlinear regression analysis of one-site saturation binding. RTX, rituximab; WT, wild type.

    Article Snippet: Subtracted values were plotted using a nonlinear regression analysis for ‘saturation binding with one site’ in GraphPad Prism version 9 (GraphPad Software, Inc.).

    Techniques: Binding Assay, Staining, Concentration Assay

    (A) BASU-GLI1 vicinal labeling in ASZ followed by streptavidin pulldown ± CRT0329868 (CRT) (+biotin, +CRT, 5hr). (B) APEX2-GLI1 vicinal labeling in ASZ followed by streptavidin pulldown ± PSI. (C) Co-IP of FLAG-GLI1 in ASZ ± PSI followed by immunoblot. (D) PLA between total GLI1 and LAP2α (top) or LAP2β (bottom) in ASZ treated with indicated inhibitors for 2hr (scale bar=20μm, n=10 fields, ANOVA). (E) PLA between total GLI1 and LAP2α (left) or LAP2β (right) in 1º human BCCs treated with vorinostat ex vivo (scale bar= 66μm, n=10 fields, ANOVA). (F) Co-IP of in vitro translated HA-GLI1 zinc-finger domain (HA-GLI1ZF) from WCE. Inputs in Figure S5B. (G) LAP2-binding mutants mapped onto GLI1:DNA crystal structure (pdb:2GLI). Mutations which inhibit (red) or are permissive of (grey) LAP2 binding are illustrated as spheres. Co-IP in Figure S5C. (H) Co-IP of HA-GLI1WT/T296E transfected into HEK293T followed by immunoblot of endogenous LAP2. Inputs in Figure S5D. (I) qRT-PCR of GLI1 and GAPDH following transfection of GLI1WT/T296E into NIH3T3 (n=9, ANOVA). Associated immunoblot in Figure S5E. (J) Co-IP of full length GLI1 (GLI1 FL) or zinc-finger domain GLI1 (GLI1 ZF) with recombinant LAP2 constant region (−/+ indicate the addition of LAP2 peptide). Input in Figure S5F. (K) Co-IP of wheat germ cell extract in vitro translated HA-GLI1 with chemically synthesized biotin-LEM-like (residues 5–48), biotin-LEM (residues 109–153), or biotin-scrambled LEM-like domains. Associated inputs and saturation binding experiment in Figure S5G and S5H. (L) Co-IP of FLAG-GLI1 co-transfected into HEK293T with a gradient of LAP2α, followed by immunoblot for total LAP2 (n=3). Input and reciprocal IP in Figures S5I and S5J. (M) GLI1 transfected in HEK293T (top, cellular IP) or in vitro translated and incubated in WCE (bottom three, in vitro IP) with indicated mutations/truncations co-IP with associated epitope tag. IP washed over a gradient of high salt conditions prior to immunoblot. Complex strength=−slope(x)−1−slope(α)−1 Error bars represent standard error, error bars omitted when smaller than the width of associated data point symbol, ns=not significant, *p<0.05, **p<0.01, ***p<0.001, ****p<0.0001. See also Figure S5.

    Journal: Cell

    Article Title: LAP2 Proteins Chaperone GLI1 Movement Between Lamina and Chromatin to Regulate Transcription

    doi: 10.1016/j.cell.2018.10.054

    Figure Lengend Snippet: (A) BASU-GLI1 vicinal labeling in ASZ followed by streptavidin pulldown ± CRT0329868 (CRT) (+biotin, +CRT, 5hr). (B) APEX2-GLI1 vicinal labeling in ASZ followed by streptavidin pulldown ± PSI. (C) Co-IP of FLAG-GLI1 in ASZ ± PSI followed by immunoblot. (D) PLA between total GLI1 and LAP2α (top) or LAP2β (bottom) in ASZ treated with indicated inhibitors for 2hr (scale bar=20μm, n=10 fields, ANOVA). (E) PLA between total GLI1 and LAP2α (left) or LAP2β (right) in 1º human BCCs treated with vorinostat ex vivo (scale bar= 66μm, n=10 fields, ANOVA). (F) Co-IP of in vitro translated HA-GLI1 zinc-finger domain (HA-GLI1ZF) from WCE. Inputs in Figure S5B. (G) LAP2-binding mutants mapped onto GLI1:DNA crystal structure (pdb:2GLI). Mutations which inhibit (red) or are permissive of (grey) LAP2 binding are illustrated as spheres. Co-IP in Figure S5C. (H) Co-IP of HA-GLI1WT/T296E transfected into HEK293T followed by immunoblot of endogenous LAP2. Inputs in Figure S5D. (I) qRT-PCR of GLI1 and GAPDH following transfection of GLI1WT/T296E into NIH3T3 (n=9, ANOVA). Associated immunoblot in Figure S5E. (J) Co-IP of full length GLI1 (GLI1 FL) or zinc-finger domain GLI1 (GLI1 ZF) with recombinant LAP2 constant region (−/+ indicate the addition of LAP2 peptide). Input in Figure S5F. (K) Co-IP of wheat germ cell extract in vitro translated HA-GLI1 with chemically synthesized biotin-LEM-like (residues 5–48), biotin-LEM (residues 109–153), or biotin-scrambled LEM-like domains. Associated inputs and saturation binding experiment in Figure S5G and S5H. (L) Co-IP of FLAG-GLI1 co-transfected into HEK293T with a gradient of LAP2α, followed by immunoblot for total LAP2 (n=3). Input and reciprocal IP in Figures S5I and S5J. (M) GLI1 transfected in HEK293T (top, cellular IP) or in vitro translated and incubated in WCE (bottom three, in vitro IP) with indicated mutations/truncations co-IP with associated epitope tag. IP washed over a gradient of high salt conditions prior to immunoblot. Complex strength=−slope(x)−1−slope(α)−1 Error bars represent standard error, error bars omitted when smaller than the width of associated data point symbol, ns=not significant, *p<0.05, **p<0.01, ***p<0.001, ****p<0.0001. See also Figure S5.

    Article Snippet: Curve fitting for FRAP analysis and saturation binding was also performed in GraphPad PRISM 6.

    Techniques: Labeling, Co-Immunoprecipitation Assay, Western Blot, Ex Vivo, In Vitro, Binding Assay, Transfection, Quantitative RT-PCR, Recombinant, Synthesized, Incubation

    (A) A saturation binding assay was used to derive a Kd of 164.7 nM for fluorescent clicked PiB (4). (B) Dose-response curve showing displacement of fluorescent clicked PiB (4) (at 140 nM) with increasing concentrations (0–100,000 nM) of PiB (2) ( ) and clickable PiB (3) ( ). From these data, binding affinities (Ki) of 678.4 and 264.7 nM were determined for compounds 2 and 3, respectively (summarized in Table 1).

    Journal: Bioconjugate chemistry

    Article Title: Generation of clickable Pittsburgh Compound B for the detection and capture of β-amyloid in Alzheimer’s Disease brain

    doi: 10.1021/acs.bioconjchem.7b00500

    Figure Lengend Snippet: (A) A saturation binding assay was used to derive a Kd of 164.7 nM for fluorescent clicked PiB (4). (B) Dose-response curve showing displacement of fluorescent clicked PiB (4) (at 140 nM) with increasing concentrations (0–100,000 nM) of PiB (2) ( ) and clickable PiB (3) ( ). From these data, binding affinities (Ki) of 678.4 and 264.7 nM were determined for compounds 2 and 3, respectively (summarized in Table 1).

    Article Snippet: Binding affinities were derived using the saturation binding one-site specific non-linear regression analysis model of GraphPad Prism 5 (GraphPad Software Inc., California).

    Techniques: Saturation Assay, Binding Assay